US2564238A - Silver azo dye bleach-out process and bleaching baths for use therein - Google Patents

Silver azo dye bleach-out process and bleaching baths for use therein Download PDF

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US2564238A
US2564238A US716422A US71642246A US2564238A US 2564238 A US2564238 A US 2564238A US 716422 A US716422 A US 716422A US 71642246 A US71642246 A US 71642246A US 2564238 A US2564238 A US 2564238A
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silver
acid
composition
excepting
former
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Joseph A Sprung
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GAF Chemicals Corp
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General Aniline and Film Corp
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Priority to US716422A priority patent/US2564238A/en
Priority to GB15404/47A priority patent/GB636222A/en
Priority to ES179657A priority patent/ES179657A1/es
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    • GPHYSICS
    • G03PHOTOGRAPHY; CINEMATOGRAPHY; ANALOGOUS TECHNIQUES USING WAVES OTHER THAN OPTICAL WAVES; ELECTROGRAPHY; HOLOGRAPHY
    • G03CPHOTOSENSITIVE MATERIALS FOR PHOTOGRAPHIC PURPOSES; PHOTOGRAPHIC PROCESSES, e.g. CINE, X-RAY, COLOUR, STEREO-PHOTOGRAPHIC PROCESSES; AUXILIARY PROCESSES IN PHOTOGRAPHY
    • G03C7/00Multicolour photographic processes or agents therefor; Regeneration of such processing agents; Photosensitive materials for multicolour processes
    • G03C7/28Silver dye bleach processes; Materials therefor; Preparing or processing such materials

Definitions

  • the present invention relates to the silver dye bleach-out process; and more particularly to bleaching baths for use therein which are uniformly capableiof bleaching azo dyes in conjunctionwitha' silver image at a rate satisfactory to photographic requirements.
  • the silver dye bleach-out process involves the treatment of a silver halide emulsion diffusely dyed with an azo dye and containing a silver image, with a bleaching solution which in cooperation with the silver'image'destroys the dye at the places of said image, thereby yielding dyestuif images.
  • the bleaching solution which isemployed is acidic, it appears that the azo linkage is first reduced to a hydrazo linkage fromwhich the amino groups are subsequently cleaved or which undergoes a semidine or benzidine rearrangement.
  • bleaching solutions for effecting the destruction of the azo dye at the silver image.
  • One such proposal involves the use of sodium hydrosulfite.
  • This bleach'is too powerful, not only reducing the dye at the silver, image but also in the other portions of the emulsion'layen has been impossible up to the present time to obtain satisfactory results with such bleaching solutions.
  • Another procedure recommends theutilization as a bleach bath of thiou'rea man acid solution.
  • the thioureableach hasbeen found to be effective with'a number of azo dyes. However, it does not act uniformly on all azo dyes, there being a number of dyes, particularly those used for formation of the cyan imagawhich are unaffected by this bleach within practical time limits.
  • RN NR' 2H 2e- 2 RNHNHR Degradation or rearrangement products
  • the normal potentials (Latimer, The Oxidation States of the Elements and Their Potentials Application December 14, 1946, Serial No. 716,422 7 2 in Aqueous Solutions, N. Y., Prentice-Hall, 1938, Appendix I, p. 293) of some common inorganic reducing reagents which are known to reduce azo dyes are as follows:
  • the silver-azo dye bleach-out process operates on the principle that the metallic silver image in combination with the various reagents in the bleach composition functions as the reducing E0 Ag" (2) Ag+ e- 0.7995 2Ag 80.;- 2 AE2SO4 2eo.6s Ag 01- AgCl eo.222 4Ag ream :2 Ag4Fe(ON) 4eo.19
  • compositions efiect this result through a mutual cooperation of the various ingredients as a consequence of which the silver image is given a sufiiciently high redox potential so that the reduction of the azo dye is efiected within practical time limits.
  • silver image is given a sufiiciently high redox potential so that the reduction of the azo dye is efiected within practical time limits.
  • considerable leeway is provided the operator in the selection of a bleach bath which will give him optimum results with difierent types of bleach-out film.
  • the first essential component of my silver bleach-out bath is a substance which I have characterized as a silver salt former.
  • This substance must be one which is capable of providing ions which react with silver to form a silver salt under the conditions existing at the time of application of the bleach-out bath.
  • the silver salt formers are in turn divisible into three classes of compounds, to wit:
  • Inorganic substances which in aqueous solution yield ions forming salts with silver and capable of forming systems which possess a redox potential more positive than .3 volt at a pH 1, such as Chloride ions, Bromide ions, Iodide ions,
  • Nitrogenous heterocyclic compounds containing the grouping and capable of forming metal salts such as 1.2.3-triazoles having the grouping:
  • N-o- H ON/ H such as- 1.2.4-triazole, 3-methyl-l 2.4-triazo1e, 3.5-dimethyl-1.2.4-triazole and the like, Dihydrodiazines having the grouping:
  • the second essential component which I have characterized as silver complex formers, are
  • Y represents the atoms necessary to complete a 5- or 6-membered heterocyclic ring system.
  • These compounds unlike the quinones, azines and. the like are not catalysts since they cannot transfer electrons through semiquinone intermediates.
  • These bases are known to combine with many inorganic salts to form the socalled Werner complexes.
  • they com- 7 bine with many silver salts, such as:
  • CH such as- Quinoline
  • N Isoquinoline such as- Qumaldme' '2,4-dimethylselenazole, i i 2-methy1-4,5-ciihydroselenaz0le, 0 .6- 1methy1 qumolme, Benzoselenazole, smethoxy 2-methy1-6-methoxyse1enazole and the like, s'hyqroxy qumoltne' Imidazoles having the grouping: z'g'dlmethoxy gmriolme fi-acetamidoquinolme, H Z-methyl-G-ethoxy quinoline,
  • Naphthyridines such as- 1,5-naphthyridine, having the following constitution: such as 2-pheny1-1,3-oxazine and the like, 1,3-thiazines having the grouping:
  • N LB-naphthyridine having the following consuch as stitution:
  • Phenanthridines such as Q-methyl phenanthridine, having the following constitution:
  • Benzoquinolines such as- 6,7-benzoquinoline, having the following con- 5,6-benzoquinoline, having the following constitution:
  • Benzisoquinolines such as- 1-methyl-5,6-benzisoquinoline having the following constitution:
  • N/ I N 4,7-phenanthroline having the following constitution:
  • the third essential component of the bleaching compositions is an acid, the chief function of which is to adjust the pH of the composition.
  • the acids may be:
  • Inorganic such as- Sulfuric, Hydrochloric, Hydrobromic, Hydriodic, Phosphoric, Nitric, Sulfamic and the like, Organic carboxylic acids, such as- Formic, Acetic, Citric, Oxalic, Benzoic and the like, or Organic sulfonic acids, such asp-Toluene sulfonic acid, Naphthalene disulfonic acid and the like.
  • the quantities of the various components in the bleaching composition may vary to adjust the rate of bleaching and image contrast desired. Generally, however, the quantity of the silver salt formerand of the silver complex former ranges from about .01 mol to 1 mol per liter of solution.
  • the quantity of the acid employed is such as to neutralize any heterocyclic bases present and to provide such an excess as to insure a pH below 7.
  • Example 1 10 g of potassium iodide 50 g. of 2-aminothiazo1e (silver complex former) 5 g. of sodium hypophosphite cc. of sulfuric acid cc. of water The sodium hypophosphite is employed in this composition to prevent formation of iodine from the iodide ions by air oxidation.
  • Example 2 The composition is the same as in Example 1 excepting that the silver complex former is 2- 11 methyl-4,5 dihyclrothiazole (2 methylA thiazoline)
  • Example 3 The composition is the same as in Example 1 excepting that the silver complex former is benzimidazole.
  • Example 4 The composition is the same as in Example 1 excepting that the silver complex former is 2- aminobenzothiazole.
  • Example 5 The composition is the same as in Example 1 excepting that the silver complex former is 2- ethylbenzooxazole.
  • Example 6 The composition is the same as in Example 1 excepting that the silver complex former is 2- methylbenzothiazole.
  • Example 7 The composition is the same as in Example 1 excepting that the silver complex former is 2- mercaptobenzimidazole-5-sulfonic acid.
  • Example 8 The composition is the same as in Example 1 excepting that the silver complex former is 6- hydroxy-2-methylbenzoxazole.
  • composition is the same as in Example 1 excepting that the silver complex former is 2- methyl-6-methoxybenzoselenazole.
  • Example 10 The composition is the same as in Example 1 excepting that the silver complex former is pyridine.
  • Example 11 The composition is the same as in Example 1 excepting that the silver complex former is a-picoline.
  • Example 12 The composition is the same as in Example 1 excepting that the silver complex former is 2,6- dimethylpyridine.
  • Example 13 The composition is the same as in Example 1 excepting that the silver complex former is 11- picolinic acid.
  • Example 14 The composition is the same as in Example 1 excepting that the silver complex former is 2- aminopyricline.
  • Example 15 The composition is the same as in Example 1 excepting that the silver complex former is 2- acetamidopyridine.
  • Example 16 The composition is the same as in Example 1 excepting that the silver complex former is 2,4- dihydroxy-G-methylpyridine.
  • Example 17 The composition is the same as in Example 1 excepting that the silver complex former is astilbazole.
  • Example 18 The composition is the same as in Example 1 excepting that the silver complex former is 1- hydroxy-a-stilbazole.
  • Example 19 The composition is the same as in Example 1 excepting that the silver complex former is abipyridyl.
  • Example 20 The composition is the same as in Example 1 excepting that the silver complex former is -bipyridyl.
  • Example 21 The composition is the same as in Example 1 excepting that the silver complex former is quinoline.
  • Example 22 The composition is the same as in Example 1 excepting that the silver complex former is isoquinoline.
  • Example 23 The composition is the same as in Example 1 excepting that the silver complex former is quinaldine.
  • Example 24 The composition is the same as in Example 1 excepting that the silver complex former is 6- methylquinoline.
  • Example 25 The composition is the same as in Example 1 excepting that the silver complex former is 2,6- dimethylquinoline.
  • Example 26 The composition is the same as in Example 1 excepting that the silver complex former is 6- methoxyquinoline.
  • Example 27 The composition is the same as in Example 1 excepting that the silver complex former is 2,8- dimethoxyquinoline.
  • Example 28 The composition is the same as in Example 1 excepting that the silver complex former is 5- aminoquinoline.
  • Example 29 The composition is the same as in Example 1 excepting that the silver complex former is 6- aminoquinoline.
  • Example 30 excepting that the silver complex former is 6- acetamidoquinoline.
  • Example 32 The composition is the same as in Example 1 excepting that the silver complex former is 8- hydroxyquinoline.
  • Example 33 The composition is the same as in Example I excepting that the silver complex former is 2-methyl-6-ethoxyquinoline.
  • Example 34 The composition is the same as in Example 1 excepting that the silver complex former is Q-methylphenanthridine,
  • Example 35 The composition is the same as in Example 1 excepting that the silver complex former is 5,6- benzoquinoline.
  • Example 36 The composition is the same as in Example 1 excepting that the silver complex former is 4,7- phenanthroline.
  • Example 37 The composition is the same as in Example 1 excepting that the silver complex former is 1,7- phenanthroline.
  • Example 38 The composition is the same as in Example 1 excepting that the silver complex former is 1,10-phenanthroline.
  • Example 39 30 g. of potassium bromide (silver salt former) 50 g. of quinoline 75 cc. of sulfuric acid 1000 cc. of water
  • Example 40 The composition is the same as in Example 39 excepting that the silver salt former is benzotriazole.
  • Example 41 The composition is the same as in Example 39 excepting that the silver salt former is thiourea.
  • Example 42 The composition is the same as in Example 39 excepting that the silver salt former is potassium thiocyanate.
  • Example 43 The composition is the same as in Example 39 excepting that the silver salt former is thioacetamide.
  • Example 44 The composition is the same as in Example 39 excepting that the silver salt former is 4-diethylaminobenzothioamide.
  • Example 45 The composition is the same as in Example 39 excepting that the silver salt former is 2-mercaptobenzimidazole--sulfonic acid.
  • Example 46 The composition is the same as in Example 39 excepting that the silver salt former is potassium iodide.
  • Example 48 The composition is the same as that of Example 47 excepting that the acid is 37% hydrochloric acid.
  • Example 49 The composition is the same as in Example 47 excepting that the acid is 48% hydrobromic acid.
  • Example 50 The composition is the same as in Example 47 excepting that the acid .is 57% hydriodic acid.
  • Example 51 fonic acid.
  • Example 56 The composition is the same as in Example 47 excepting that the acid is formic acid.
  • Example 57 The composition is the same as in Example 47 excepting that the acid is acetic acid.
  • Example 58 The composition is the same as in Example 47 excepting that the acid is oxalic acid.
  • Example 59 The composition is the same as in Example 47 excepting that the acid is maleic acid.
  • Example 60 The composition is the same as in Example 47 excepting that the acid is tartaric acid.
  • Example 61 The composition is the same as in Example 47 excepting that the acid is lactic acid.
  • Example 62 The composition is the same as in Example 47 excepting that the acid is citric acid.
  • Example 63 The composition is the same as in Example 47 excepting that the acid is trichloracetic acid.
  • Example 64 A multilayer bleach-out material containing non-migrating yellow, magenta and cyan azo dyes in the blue, green and red sensitive layers respectively is exposed under a color transparency and developed to a black and white image for 18 minutes at 20 C. in a developer comprising per liter of water 1.5 g. of N-methyl-p-amino phenol sulfate 3.0 g. hydroquinone 80.0 g. sodium Sulfite (anhydrous) 0.5 g. potassium bromide 3.0 g. borax The film is then short-stopped and fixed for five 15 minutes in a fixing bath of the following composition:
  • Example 65 10 cc. of a 3% aqueous azo dye solution of the yellow azo dye of the following formula:
  • OgNa are added to 50 g. of melted silver halide emulsion and the mixture coated on a film base. The film is exposed through a transparency and processed as in the preceding example. A yellow azo dye image of excellent gradation is thus obtained.
  • Example 66 10 cc. of a 3% aqueous azo dye solution containing as the azo dye the compound of the following formula:
  • CoHtCONH OH are added to 50 g. of a melted silver halide emulsion and the mixture coated on a film base. When exposed through a transparency and processed as in Example 64, a magenta dyestufi image of excellent hue and density is obtained.
  • Example 67 10 cc. of a 3% aqueous solution of Chlorantine Fast Green BLL is added to 50 g. of melted silver halide emulsion and the mixture coated on a film base. By exposing the film through a transparency and processing as in Example 64., cyan dye images of excellent hue and density are obtained.
  • Example 68 A multilayer film is prepared by casting in sequence on a base a red, green and blue sensitive emulsion containing the azo dyes of Examples 67, 66 and 65 respectively. When exposed through a positive color transparency and processed in accordance with Example 64, a film bearing positive dye images of excellent hue and gradation are obtained.
  • Example 69 The procedure is the same as in Example 65 excepting that in place of the azo dye there employed, there is utilized a yellow azo dye obtained by tetrazotizing the sodium salt of benzidine- 2,2-sul.fonic acid and coupling the resulting tetrazonium compound with l-(3'-heptamido)- phenyl-S-carboxy pyrazolone.
  • Example 70 The procedure is the same as in Example 66 excepting that the magenta azo dye is replaced by a dyestufi obtained by tetrazotizing the sodium salt of benzidine-2,2-disulfonic acid and coupling the same with the sodium salt of l-hydroxy- 8 [(3' heptamido) benzamido] naphthalene-3.6-disulfonic acid.
  • the azo dye employed be that resulting from the tetrazotization of benzidine-2,2-disulfonic acid and the coupling of the tetrazonium compound with the disodium salt of 1-hydroxy-8-decamidonaphthalene-3.6-disulfonic acid, or with the azo dye obtained by coupling 2-decoxybenzenediazonium chloride with the sodium salt of l-hydroxy-S-benzenesulfonamidonaphthalene-S.fi-disulfonic acid.
  • Example 71 The procedure is the same as in Example 67 excepting that the azo dye employed is Pontamine Fast Green 5BL.
  • Example 72 A photographic film containing per kilo of emulsion 6 g. of the colorless non-diffusing component of the following formula:
  • NBC 0 C17H35 1 (3'-stearamido) -phenyl-3-carboxy-5-pyrazolone is exposed and developed as in Example 64.
  • the film containing a silver image is then loathed for 3 minutes in a diazonium salt solution of the following composition:
  • Example 64 1.? g. (0.005 mol) of benzidine-2.2'-disulfonic acid which had been tetrazotized according to normal practice are added to a solution of 10 g. of anhydrous sodium acetate in cc. of water. A yellow azo dye is evenly formed throughout the emulsion. The film is then further processed as in Example 64 while utilizing as the bleach bath that of Example 51.
  • NHooonH e6 NH Na S SO Na is exposed and developed as in Example 64. After development, the film is bathed for 3 minutes in the diazonium salt solution of Example 72. By this procedure, the emulsion is diffusely dyed with a magenta dyestuif of the following structure:
  • Example 74 A photographic film was exposed and developed as in Example 64. The film is then bathed in a 1% aqueous solution of Chlorantine Fast Green BLL for 5 minutes. By this treatment, the surface layer of the emulsion is evenly dyed a cyan color. The film is then further proaccessed as in Example 64 to yield a cyan dyestuff image of excellent gradation.
  • the improvement which comprises effecting such dye destruction with an aqueous bleach-out bath containing as its essential components a silver salt former consisting of a water soluble inorganic halide, a silver complex former incapable of reversible oxidation and reduction consisting of a heterocyclic nitrogenous base in which the heterocyclic N is unsubstituted and which is selected from the class consisting of quinolines and isoquinolines and a suflicient quantity of an acid to provide the bleach-out bath with a pH below '7.
  • a silver salt former consisting of a water soluble inorganic halide
  • a silver complex former incapable of reversible oxidation and reduction consisting of a heterocyclic nitrogenous base in which the heterocyclic N is unsubstituted and which is selected from the class consisting of quinolines and isoquinolines and a suflicient quantity of an acid to provide the bleach-out bath with a pH below '7.
  • the silver salt former is a water soluble inorganic iodide
  • the silver complex former is a quinoline
  • the acid is inorganic.
  • a silver dye bleach-out bath comprising an aqueous solution containing as its essential components a silver salt former consisting of a water soluble inorganic halide, a silver complex former incapable of reversible oxidation and reduction consisting of a heterocyclic nitrogenous base in which the heterocyclic N is unsubstituted and which is selected from the class consisting of quinolines and isoquinolines and a sufficient quantity of an acid to provide the bleach-out bath with a pH below 7.
  • a silver salt former consisting of a water soluble inorganic halide
  • a silver complex former incapable of reversible oxidation and reduction consisting of a heterocyclic nitrogenous base in which the heterocyclic N is unsubstituted and which is selected from the class consisting of quinolines and isoquinolines and a sufficient quantity of an acid to provide the bleach-out bath with a pH below 7.
  • the silver dye bleach Ibath as defined in claim 11 in which the silver salt former is potassium iodide, the silver complex former is quinoline and the acid is sulfuric acid.

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US716422A 1946-12-14 1946-12-14 Silver azo dye bleach-out process and bleaching baths for use therein Expired - Lifetime US2564238A (en)

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BE475914D BE475914A (ja) 1946-12-14
US716422A US2564238A (en) 1946-12-14 1946-12-14 Silver azo dye bleach-out process and bleaching baths for use therein
GB15404/47A GB636222A (en) 1946-12-14 1947-06-11 Photographic silver azo dye bleach-out process and bleaching baths for use therein
ES179657A ES179657A1 (es) 1946-12-14 1947-09-08 Un procedimiento de producción imágenes de colorante en elementos fotográficos

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Cited By (16)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2688542A (en) * 1949-02-09 1954-09-07 Bela Gaspar Material and process for the production of color photographic images
US2699394A (en) * 1950-12-15 1955-01-11 Gaspar Bela Production of photographic dye images
US3259497A (en) * 1961-09-06 1966-07-05 Ciba Ltd Photographic color reversal process
US3278303A (en) * 1961-12-20 1966-10-11 Ciba Ltd Process for the preparation of multicolored images by the silver dyestuff bleaching method
US3620744A (en) * 1968-06-25 1971-11-16 Ciba Ltd Dyestuff-bleaching preparation for the photographic silver dyestuff-bleaching process
DE2258076A1 (de) * 1971-11-29 1973-05-30 Ciba Geigy Ag Farbbleichzubereitung fuer das photographische silberfarbbleichverfahren
US3961957A (en) * 1973-05-18 1976-06-08 Ciba-Geigy Ag Dye bleach preparation for the photographic silver dye bleach process
US4229522A (en) * 1977-10-26 1980-10-21 Fuji Photo Film Co., Ltd. Method for forming color images
US4235957A (en) * 1979-01-25 1980-11-25 Eastman Kodak Company Thermal silver-dye bleach element and process
US4242441A (en) * 1976-10-12 1980-12-30 Fuji Photo Film Co., Ltd. Color image forming process
US4370402A (en) * 1980-09-24 1983-01-25 Harry Anderson Dye reducing composition for dye transfers, photographic transparencies and color prints
US4465763A (en) * 1980-12-15 1984-08-14 Ciba Geigy Ag Process for the production of photographic color images by the silver dye bleach process
EP0133163A2 (de) * 1983-07-20 1985-02-13 Ciba-Geigy Ag Verfahren zur Verarbeitung photographischer Silberfarbbleichmaterialien
EP0517989A1 (fr) * 1991-06-11 1992-12-16 JAHLEEL Corporation Substance chimique utilisable comme accélérateur dans un procédé de blanchiment des couleurs à l'argent
US5262285A (en) * 1992-05-04 1993-11-16 Eastman Kodak Company Methods and compositions for retouching film images
US20240093082A1 (en) * 2022-09-09 2024-03-21 Saudi Arabian Oil Company Aqueous fluid compositions and barite scale removal therewith

Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
GB430991A (en) * 1932-12-29 1935-06-28 Bela Gaspar An improved method of producing coloured photographic materials
US2100594A (en) * 1932-05-05 1937-11-30 Agfa Ansco Corp Color photography
US2255463A (en) * 1938-05-30 1941-09-09 Chromogen Inc Treatment bath and process for the production of colored photographic pictures
US2270118A (en) * 1936-12-14 1942-01-13 Chromogen Inc Production of colored photographic pictures

Patent Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2100594A (en) * 1932-05-05 1937-11-30 Agfa Ansco Corp Color photography
GB430991A (en) * 1932-12-29 1935-06-28 Bela Gaspar An improved method of producing coloured photographic materials
US2270118A (en) * 1936-12-14 1942-01-13 Chromogen Inc Production of colored photographic pictures
US2255463A (en) * 1938-05-30 1941-09-09 Chromogen Inc Treatment bath and process for the production of colored photographic pictures

Cited By (17)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2688542A (en) * 1949-02-09 1954-09-07 Bela Gaspar Material and process for the production of color photographic images
US2699394A (en) * 1950-12-15 1955-01-11 Gaspar Bela Production of photographic dye images
US3259497A (en) * 1961-09-06 1966-07-05 Ciba Ltd Photographic color reversal process
US3278303A (en) * 1961-12-20 1966-10-11 Ciba Ltd Process for the preparation of multicolored images by the silver dyestuff bleaching method
US3620744A (en) * 1968-06-25 1971-11-16 Ciba Ltd Dyestuff-bleaching preparation for the photographic silver dyestuff-bleaching process
DE2258076A1 (de) * 1971-11-29 1973-05-30 Ciba Geigy Ag Farbbleichzubereitung fuer das photographische silberfarbbleichverfahren
US3961957A (en) * 1973-05-18 1976-06-08 Ciba-Geigy Ag Dye bleach preparation for the photographic silver dye bleach process
US4242441A (en) * 1976-10-12 1980-12-30 Fuji Photo Film Co., Ltd. Color image forming process
US4229522A (en) * 1977-10-26 1980-10-21 Fuji Photo Film Co., Ltd. Method for forming color images
US4235957A (en) * 1979-01-25 1980-11-25 Eastman Kodak Company Thermal silver-dye bleach element and process
US4370402A (en) * 1980-09-24 1983-01-25 Harry Anderson Dye reducing composition for dye transfers, photographic transparencies and color prints
US4465763A (en) * 1980-12-15 1984-08-14 Ciba Geigy Ag Process for the production of photographic color images by the silver dye bleach process
EP0133163A2 (de) * 1983-07-20 1985-02-13 Ciba-Geigy Ag Verfahren zur Verarbeitung photographischer Silberfarbbleichmaterialien
EP0133163A3 (en) * 1983-07-20 1985-08-14 Ciba-Geigy Ag Method of processing photographic silver dye-bleaching materials
EP0517989A1 (fr) * 1991-06-11 1992-12-16 JAHLEEL Corporation Substance chimique utilisable comme accélérateur dans un procédé de blanchiment des couleurs à l'argent
US5262285A (en) * 1992-05-04 1993-11-16 Eastman Kodak Company Methods and compositions for retouching film images
US20240093082A1 (en) * 2022-09-09 2024-03-21 Saudi Arabian Oil Company Aqueous fluid compositions and barite scale removal therewith

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GB636222A (en) 1950-04-26
BE475914A (ja)

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